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1// SPDX-License-Identifier: GPL-2.0-only
2/*****************************************************************************
3 *
4 * Copyright (C) 2008 Cedric Bregardis <cedric.bregardis@free.fr> and
5 * Jean-Christian Hassler <jhassler@free.fr>
6 *
7 * This file is part of the Audiowerk2 ALSA driver
8 *
9 *****************************************************************************/
10
11#define AW2_SAA7146_M
12
13#include <linux/init.h>
14#include <linux/pci.h>
15#include <linux/interrupt.h>
16#include <linux/delay.h>
17#include <linux/io.h>
18#include <sound/core.h>
19#include <sound/initval.h>
20#include <sound/pcm.h>
21#include <sound/pcm_params.h>
22
23#include "saa7146.h"
24#include "aw2-saa7146.h"
25
26#include "aw2-tsl.c"
27
28#define WRITEREG(value, addr) writel((value), chip->base_addr + (addr))
29#define READREG(addr) readl(chip->base_addr + (addr))
30
31static struct snd_aw2_saa7146_cb_param
32 arr_substream_it_playback_cb[NB_STREAM_PLAYBACK];
33static struct snd_aw2_saa7146_cb_param
34 arr_substream_it_capture_cb[NB_STREAM_CAPTURE];
35
36static int snd_aw2_saa7146_get_limit(int size);
37
38/* chip-specific destructor */
39int snd_aw2_saa7146_free(struct snd_aw2_saa7146 *chip)
40{
41 /* disable all irqs */
42 WRITEREG(0, IER);
43
44 /* reset saa7146 */
45 WRITEREG((MRST_N << 16), MC1);
46
47 /* Unset base addr */
48 chip->base_addr = NULL;
49
50 return 0;
51}
52
53void snd_aw2_saa7146_setup(struct snd_aw2_saa7146 *chip,
54 void __iomem *pci_base_addr)
55{
56 /* set PCI burst/threshold
57
58 Burst length definition
59 VALUE BURST LENGTH
60 000 1 Dword
61 001 2 Dwords
62 010 4 Dwords
63 011 8 Dwords
64 100 16 Dwords
65 101 32 Dwords
66 110 64 Dwords
67 111 128 Dwords
68
69 Threshold definition
70 VALUE WRITE MODE READ MODE
71 00 1 Dword of valid data 1 empty Dword
72 01 4 Dwords of valid data 4 empty Dwords
73 10 8 Dwords of valid data 8 empty Dwords
74 11 16 Dwords of valid data 16 empty Dwords */
75
76 unsigned int acon2;
77 unsigned int acon1 = 0;
78 int i;
79
80 /* Set base addr */
81 chip->base_addr = pci_base_addr;
82
83 /* disable all irqs */
84 WRITEREG(0, IER);
85
86 /* reset saa7146 */
87 WRITEREG((MRST_N << 16), MC1);
88
89 /* enable audio interface */
90#ifdef __BIG_ENDIAN
91 acon1 |= A1_SWAP;
92 acon1 |= A2_SWAP;
93#endif
94 /* WS0_CTRL, WS0_SYNC: input TSL1, I2S */
95
96 /* At initialization WS1 and WS2 are disabled (configured as input) */
97 acon1 |= 0 * WS1_CTRL;
98 acon1 |= 0 * WS2_CTRL;
99
100 /* WS4 is not used. So it must not restart A2.
101 This is why it is configured as output (force to low) */
102 acon1 |= 3 * WS4_CTRL;
103
104 /* WS3_CTRL, WS3_SYNC: output TSL2, I2S */
105 acon1 |= 2 * WS3_CTRL;
106
107 /* A1 and A2 are active and asynchronous */
108 acon1 |= 3 * AUDIO_MODE;
109 WRITEREG(acon1, ACON1);
110
111 /* The following comes from original windows driver.
112 It is needed to have a correct behavior of input and output
113 simultenously, but I don't know why ! */
114 WRITEREG(3 * (BurstA1_in) + 3 * (ThreshA1_in) +
115 3 * (BurstA1_out) + 3 * (ThreshA1_out) +
116 3 * (BurstA2_out) + 3 * (ThreshA2_out), PCI_BT_A);
117
118 /* enable audio port pins */
119 WRITEREG((EAP << 16) | EAP, MC1);
120
121 /* enable I2C */
122 WRITEREG((EI2C << 16) | EI2C, MC1);
123 /* enable interrupts */
124 WRITEREG(A1_out | A2_out | A1_in | IIC_S | IIC_E, IER);
125
126 /* audio configuration */
127 acon2 = A2_CLKSRC | BCLK1_OEN;
128 WRITEREG(acon2, ACON2);
129
130 /* By default use analog input */
131 snd_aw2_saa7146_use_digital_input(chip, 0);
132
133 /* TSL setup */
134 for (i = 0; i < 8; ++i) {
135 WRITEREG(tsl1[i], TSL1 + (i * 4));
136 WRITEREG(tsl2[i], TSL2 + (i * 4));
137 }
138
139}
140
141void snd_aw2_saa7146_pcm_init_playback(struct snd_aw2_saa7146 *chip,
142 int stream_number,
143 unsigned long dma_addr,
144 unsigned long period_size,
145 unsigned long buffer_size)
146{
147 unsigned long dw_page, dw_limit;
148
149 /* Configure DMA for substream
150 Configuration informations: ALSA has allocated continuous memory
151 pages. So we don't need to use MMU of saa7146.
152 */
153
154 /* No MMU -> nothing to do with PageA1, we only configure the limit of
155 PageAx_out register */
156 /* Disable MMU */
157 dw_page = (0L << 11);
158
159 /* Configure Limit for DMA access.
160 The limit register defines an address limit, which generates
161 an interrupt if passed by the actual PCI address pointer.
162 '0001' means an interrupt will be generated if the lower
163 6 bits (64 bytes) of the PCI address are zero. '0010'
164 defines a limit of 128 bytes, '0011' one of 256 bytes, and
165 so on up to 1 Mbyte defined by '1111'. This interrupt range
166 can be calculated as follows:
167 Range = 2^(5 + Limit) bytes.
168 */
169 dw_limit = snd_aw2_saa7146_get_limit(period_size);
170 dw_page |= (dw_limit << 4);
171
172 if (stream_number == 0) {
173 WRITEREG(dw_page, PageA2_out);
174
175 /* Base address for DMA transfert. */
176 /* This address has been reserved by ALSA. */
177 /* This is a physical address */
178 WRITEREG(dma_addr, BaseA2_out);
179
180 /* Define upper limit for DMA access */
181 WRITEREG(dma_addr + buffer_size, ProtA2_out);
182
183 } else if (stream_number == 1) {
184 WRITEREG(dw_page, PageA1_out);
185
186 /* Base address for DMA transfert. */
187 /* This address has been reserved by ALSA. */
188 /* This is a physical address */
189 WRITEREG(dma_addr, BaseA1_out);
190
191 /* Define upper limit for DMA access */
192 WRITEREG(dma_addr + buffer_size, ProtA1_out);
193 } else {
194 pr_err("aw2: snd_aw2_saa7146_pcm_init_playback: "
195 "Substream number is not 0 or 1 -> not managed\n");
196 }
197}
198
199void snd_aw2_saa7146_pcm_init_capture(struct snd_aw2_saa7146 *chip,
200 int stream_number, unsigned long dma_addr,
201 unsigned long period_size,
202 unsigned long buffer_size)
203{
204 unsigned long dw_page, dw_limit;
205
206 /* Configure DMA for substream
207 Configuration informations: ALSA has allocated continuous memory
208 pages. So we don't need to use MMU of saa7146.
209 */
210
211 /* No MMU -> nothing to do with PageA1, we only configure the limit of
212 PageAx_out register */
213 /* Disable MMU */
214 dw_page = (0L << 11);
215
216 /* Configure Limit for DMA access.
217 The limit register defines an address limit, which generates
218 an interrupt if passed by the actual PCI address pointer.
219 '0001' means an interrupt will be generated if the lower
220 6 bits (64 bytes) of the PCI address are zero. '0010'
221 defines a limit of 128 bytes, '0011' one of 256 bytes, and
222 so on up to 1 Mbyte defined by '1111'. This interrupt range
223 can be calculated as follows:
224 Range = 2^(5 + Limit) bytes.
225 */
226 dw_limit = snd_aw2_saa7146_get_limit(period_size);
227 dw_page |= (dw_limit << 4);
228
229 if (stream_number == 0) {
230 WRITEREG(dw_page, PageA1_in);
231
232 /* Base address for DMA transfert. */
233 /* This address has been reserved by ALSA. */
234 /* This is a physical address */
235 WRITEREG(dma_addr, BaseA1_in);
236
237 /* Define upper limit for DMA access */
238 WRITEREG(dma_addr + buffer_size, ProtA1_in);
239 } else {
240 pr_err("aw2: snd_aw2_saa7146_pcm_init_capture: "
241 "Substream number is not 0 -> not managed\n");
242 }
243}
244
245void snd_aw2_saa7146_define_it_playback_callback(unsigned int stream_number,
246 snd_aw2_saa7146_it_cb
247 p_it_callback,
248 void *p_callback_param)
249{
250 if (stream_number < NB_STREAM_PLAYBACK) {
251 arr_substream_it_playback_cb[stream_number].p_it_callback =
252 (snd_aw2_saa7146_it_cb) p_it_callback;
253 arr_substream_it_playback_cb[stream_number].p_callback_param =
254 (void *)p_callback_param;
255 }
256}
257
258void snd_aw2_saa7146_define_it_capture_callback(unsigned int stream_number,
259 snd_aw2_saa7146_it_cb
260 p_it_callback,
261 void *p_callback_param)
262{
263 if (stream_number < NB_STREAM_CAPTURE) {
264 arr_substream_it_capture_cb[stream_number].p_it_callback =
265 (snd_aw2_saa7146_it_cb) p_it_callback;
266 arr_substream_it_capture_cb[stream_number].p_callback_param =
267 (void *)p_callback_param;
268 }
269}
270
271void snd_aw2_saa7146_pcm_trigger_start_playback(struct snd_aw2_saa7146 *chip,
272 int stream_number)
273{
274 unsigned int acon1 = 0;
275 /* In aw8 driver, dma transfert is always active. It is
276 started and stopped in a larger "space" */
277 acon1 = READREG(ACON1);
278 if (stream_number == 0) {
279 WRITEREG((TR_E_A2_OUT << 16) | TR_E_A2_OUT, MC1);
280
281 /* WS2_CTRL, WS2_SYNC: output TSL2, I2S */
282 acon1 |= 2 * WS2_CTRL;
283 WRITEREG(acon1, ACON1);
284
285 } else if (stream_number == 1) {
286 WRITEREG((TR_E_A1_OUT << 16) | TR_E_A1_OUT, MC1);
287
288 /* WS1_CTRL, WS1_SYNC: output TSL1, I2S */
289 acon1 |= 1 * WS1_CTRL;
290 WRITEREG(acon1, ACON1);
291 }
292}
293
294void snd_aw2_saa7146_pcm_trigger_stop_playback(struct snd_aw2_saa7146 *chip,
295 int stream_number)
296{
297 unsigned int acon1 = 0;
298 acon1 = READREG(ACON1);
299 if (stream_number == 0) {
300 /* WS2_CTRL, WS2_SYNC: output TSL2, I2S */
301 acon1 &= ~(3 * WS2_CTRL);
302 WRITEREG(acon1, ACON1);
303
304 WRITEREG((TR_E_A2_OUT << 16), MC1);
305 } else if (stream_number == 1) {
306 /* WS1_CTRL, WS1_SYNC: output TSL1, I2S */
307 acon1 &= ~(3 * WS1_CTRL);
308 WRITEREG(acon1, ACON1);
309
310 WRITEREG((TR_E_A1_OUT << 16), MC1);
311 }
312}
313
314void snd_aw2_saa7146_pcm_trigger_start_capture(struct snd_aw2_saa7146 *chip,
315 int stream_number)
316{
317 /* In aw8 driver, dma transfert is always active. It is
318 started and stopped in a larger "space" */
319 if (stream_number == 0)
320 WRITEREG((TR_E_A1_IN << 16) | TR_E_A1_IN, MC1);
321}
322
323void snd_aw2_saa7146_pcm_trigger_stop_capture(struct snd_aw2_saa7146 *chip,
324 int stream_number)
325{
326 if (stream_number == 0)
327 WRITEREG((TR_E_A1_IN << 16), MC1);
328}
329
330irqreturn_t snd_aw2_saa7146_interrupt(int irq, void *dev_id)
331{
332 unsigned int isr;
333 __always_unused unsigned int iicsta;
334 struct snd_aw2_saa7146 *chip = dev_id;
335
336 isr = READREG(ISR);
337 if (!isr)
338 return IRQ_NONE;
339
340 WRITEREG(isr, ISR);
341
342 if (isr & (IIC_S | IIC_E)) {
343 iicsta = READREG(IICSTA);
344 WRITEREG(0x100, IICSTA);
345 }
346
347 if (isr & A1_out) {
348 if (arr_substream_it_playback_cb[1].p_it_callback != NULL) {
349 arr_substream_it_playback_cb[1].
350 p_it_callback(arr_substream_it_playback_cb[1].
351 p_callback_param);
352 }
353 }
354 if (isr & A2_out) {
355 if (arr_substream_it_playback_cb[0].p_it_callback != NULL) {
356 arr_substream_it_playback_cb[0].
357 p_it_callback(arr_substream_it_playback_cb[0].
358 p_callback_param);
359 }
360
361 }
362 if (isr & A1_in) {
363 if (arr_substream_it_capture_cb[0].p_it_callback != NULL) {
364 arr_substream_it_capture_cb[0].
365 p_it_callback(arr_substream_it_capture_cb[0].
366 p_callback_param);
367 }
368 }
369 return IRQ_HANDLED;
370}
371
372unsigned int snd_aw2_saa7146_get_hw_ptr_playback(struct snd_aw2_saa7146 *chip,
373 int stream_number,
374 unsigned char *start_addr,
375 unsigned int buffer_size)
376{
377 long pci_adp = 0;
378 size_t ptr = 0;
379
380 if (stream_number == 0) {
381 pci_adp = READREG(PCI_ADP3);
382 ptr = pci_adp - (long)start_addr;
383
384 if (ptr == buffer_size)
385 ptr = 0;
386 }
387 if (stream_number == 1) {
388 pci_adp = READREG(PCI_ADP1);
389 ptr = pci_adp - (size_t) start_addr;
390
391 if (ptr == buffer_size)
392 ptr = 0;
393 }
394 return ptr;
395}
396
397unsigned int snd_aw2_saa7146_get_hw_ptr_capture(struct snd_aw2_saa7146 *chip,
398 int stream_number,
399 unsigned char *start_addr,
400 unsigned int buffer_size)
401{
402 size_t pci_adp = 0;
403 size_t ptr = 0;
404 if (stream_number == 0) {
405 pci_adp = READREG(PCI_ADP2);
406 ptr = pci_adp - (size_t) start_addr;
407
408 if (ptr == buffer_size)
409 ptr = 0;
410 }
411 return ptr;
412}
413
414void snd_aw2_saa7146_use_digital_input(struct snd_aw2_saa7146 *chip,
415 int use_digital)
416{
417 /* FIXME: switch between analog and digital input does not always work.
418 It can produce a kind of white noise. It seams that received data
419 are inverted sometime (endian inversion). Why ? I don't know, maybe
420 a problem of synchronization... However for the time being I have
421 not found the problem. Workaround: switch again (and again) between
422 digital and analog input until it works. */
423 if (use_digital)
424 WRITEREG(0x40, GPIO_CTRL);
425 else
426 WRITEREG(0x50, GPIO_CTRL);
427}
428
429int snd_aw2_saa7146_is_using_digital_input(struct snd_aw2_saa7146 *chip)
430{
431 unsigned int reg_val = READREG(GPIO_CTRL);
432 if ((reg_val & 0xFF) == 0x40)
433 return 1;
434 else
435 return 0;
436}
437
438
439static int snd_aw2_saa7146_get_limit(int size)
440{
441 int limitsize = 32;
442 int limit = 0;
443 while (limitsize < size) {
444 limitsize *= 2;
445 limit++;
446 }
447 return limit;
448}
1/*****************************************************************************
2 *
3 * Copyright (C) 2008 Cedric Bregardis <cedric.bregardis@free.fr> and
4 * Jean-Christian Hassler <jhassler@free.fr>
5 *
6 * This file is part of the Audiowerk2 ALSA driver
7 *
8 * The Audiowerk2 ALSA driver is free software; you can redistribute it and/or
9 * modify it under the terms of the GNU General Public License as published by
10 * the Free Software Foundation; version 2.
11 *
12 * The Audiowerk2 ALSA driver is distributed in the hope that it will be useful,
13 * but WITHOUT ANY WARRANTY; without even the implied warranty of
14 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 * GNU General Public License for more details.
16 *
17 * You should have received a copy of the GNU General Public License
18 * along with the Audiowerk2 ALSA driver; if not, write to the Free Software
19 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301,
20 * USA.
21 *
22 *****************************************************************************/
23
24#define AW2_SAA7146_M
25
26#include <linux/init.h>
27#include <linux/pci.h>
28#include <linux/interrupt.h>
29#include <linux/delay.h>
30#include <asm/system.h>
31#include <asm/io.h>
32#include <sound/core.h>
33#include <sound/initval.h>
34#include <sound/pcm.h>
35#include <sound/pcm_params.h>
36
37#include "saa7146.h"
38#include "aw2-saa7146.h"
39
40#include "aw2-tsl.c"
41
42#define WRITEREG(value, addr) writel((value), chip->base_addr + (addr))
43#define READREG(addr) readl(chip->base_addr + (addr))
44
45static struct snd_aw2_saa7146_cb_param
46 arr_substream_it_playback_cb[NB_STREAM_PLAYBACK];
47static struct snd_aw2_saa7146_cb_param
48 arr_substream_it_capture_cb[NB_STREAM_CAPTURE];
49
50static int snd_aw2_saa7146_get_limit(int size);
51
52/* chip-specific destructor */
53int snd_aw2_saa7146_free(struct snd_aw2_saa7146 *chip)
54{
55 /* disable all irqs */
56 WRITEREG(0, IER);
57
58 /* reset saa7146 */
59 WRITEREG((MRST_N << 16), MC1);
60
61 /* Unset base addr */
62 chip->base_addr = NULL;
63
64 return 0;
65}
66
67void snd_aw2_saa7146_setup(struct snd_aw2_saa7146 *chip,
68 void __iomem *pci_base_addr)
69{
70 /* set PCI burst/threshold
71
72 Burst length definition
73 VALUE BURST LENGTH
74 000 1 Dword
75 001 2 Dwords
76 010 4 Dwords
77 011 8 Dwords
78 100 16 Dwords
79 101 32 Dwords
80 110 64 Dwords
81 111 128 Dwords
82
83 Threshold definition
84 VALUE WRITE MODE READ MODE
85 00 1 Dword of valid data 1 empty Dword
86 01 4 Dwords of valid data 4 empty Dwords
87 10 8 Dwords of valid data 8 empty Dwords
88 11 16 Dwords of valid data 16 empty Dwords */
89
90 unsigned int acon2;
91 unsigned int acon1 = 0;
92 int i;
93
94 /* Set base addr */
95 chip->base_addr = pci_base_addr;
96
97 /* disable all irqs */
98 WRITEREG(0, IER);
99
100 /* reset saa7146 */
101 WRITEREG((MRST_N << 16), MC1);
102
103 /* enable audio interface */
104#ifdef __BIG_ENDIAN
105 acon1 |= A1_SWAP;
106 acon1 |= A2_SWAP;
107#endif
108 /* WS0_CTRL, WS0_SYNC: input TSL1, I2S */
109
110 /* At initialization WS1 and WS2 are disabled (configured as input) */
111 acon1 |= 0 * WS1_CTRL;
112 acon1 |= 0 * WS2_CTRL;
113
114 /* WS4 is not used. So it must not restart A2.
115 This is why it is configured as output (force to low) */
116 acon1 |= 3 * WS4_CTRL;
117
118 /* WS3_CTRL, WS3_SYNC: output TSL2, I2S */
119 acon1 |= 2 * WS3_CTRL;
120
121 /* A1 and A2 are active and asynchronous */
122 acon1 |= 3 * AUDIO_MODE;
123 WRITEREG(acon1, ACON1);
124
125 /* The following comes from original windows driver.
126 It is needed to have a correct behavior of input and output
127 simultenously, but I don't know why ! */
128 WRITEREG(3 * (BurstA1_in) + 3 * (ThreshA1_in) +
129 3 * (BurstA1_out) + 3 * (ThreshA1_out) +
130 3 * (BurstA2_out) + 3 * (ThreshA2_out), PCI_BT_A);
131
132 /* enable audio port pins */
133 WRITEREG((EAP << 16) | EAP, MC1);
134
135 /* enable I2C */
136 WRITEREG((EI2C << 16) | EI2C, MC1);
137 /* enable interrupts */
138 WRITEREG(A1_out | A2_out | A1_in | IIC_S | IIC_E, IER);
139
140 /* audio configuration */
141 acon2 = A2_CLKSRC | BCLK1_OEN;
142 WRITEREG(acon2, ACON2);
143
144 /* By default use analog input */
145 snd_aw2_saa7146_use_digital_input(chip, 0);
146
147 /* TSL setup */
148 for (i = 0; i < 8; ++i) {
149 WRITEREG(tsl1[i], TSL1 + (i * 4));
150 WRITEREG(tsl2[i], TSL2 + (i * 4));
151 }
152
153}
154
155void snd_aw2_saa7146_pcm_init_playback(struct snd_aw2_saa7146 *chip,
156 int stream_number,
157 unsigned long dma_addr,
158 unsigned long period_size,
159 unsigned long buffer_size)
160{
161 unsigned long dw_page, dw_limit;
162
163 /* Configure DMA for substream
164 Configuration informations: ALSA has allocated continuous memory
165 pages. So we don't need to use MMU of saa7146.
166 */
167
168 /* No MMU -> nothing to do with PageA1, we only configure the limit of
169 PageAx_out register */
170 /* Disable MMU */
171 dw_page = (0L << 11);
172
173 /* Configure Limit for DMA access.
174 The limit register defines an address limit, which generates
175 an interrupt if passed by the actual PCI address pointer.
176 '0001' means an interrupt will be generated if the lower
177 6 bits (64 bytes) of the PCI address are zero. '0010'
178 defines a limit of 128 bytes, '0011' one of 256 bytes, and
179 so on up to 1 Mbyte defined by '1111'. This interrupt range
180 can be calculated as follows:
181 Range = 2^(5 + Limit) bytes.
182 */
183 dw_limit = snd_aw2_saa7146_get_limit(period_size);
184 dw_page |= (dw_limit << 4);
185
186 if (stream_number == 0) {
187 WRITEREG(dw_page, PageA2_out);
188
189 /* Base address for DMA transfert. */
190 /* This address has been reserved by ALSA. */
191 /* This is a physical address */
192 WRITEREG(dma_addr, BaseA2_out);
193
194 /* Define upper limit for DMA access */
195 WRITEREG(dma_addr + buffer_size, ProtA2_out);
196
197 } else if (stream_number == 1) {
198 WRITEREG(dw_page, PageA1_out);
199
200 /* Base address for DMA transfert. */
201 /* This address has been reserved by ALSA. */
202 /* This is a physical address */
203 WRITEREG(dma_addr, BaseA1_out);
204
205 /* Define upper limit for DMA access */
206 WRITEREG(dma_addr + buffer_size, ProtA1_out);
207 } else {
208 printk(KERN_ERR
209 "aw2: snd_aw2_saa7146_pcm_init_playback: "
210 "Substream number is not 0 or 1 -> not managed\n");
211 }
212}
213
214void snd_aw2_saa7146_pcm_init_capture(struct snd_aw2_saa7146 *chip,
215 int stream_number, unsigned long dma_addr,
216 unsigned long period_size,
217 unsigned long buffer_size)
218{
219 unsigned long dw_page, dw_limit;
220
221 /* Configure DMA for substream
222 Configuration informations: ALSA has allocated continuous memory
223 pages. So we don't need to use MMU of saa7146.
224 */
225
226 /* No MMU -> nothing to do with PageA1, we only configure the limit of
227 PageAx_out register */
228 /* Disable MMU */
229 dw_page = (0L << 11);
230
231 /* Configure Limit for DMA access.
232 The limit register defines an address limit, which generates
233 an interrupt if passed by the actual PCI address pointer.
234 '0001' means an interrupt will be generated if the lower
235 6 bits (64 bytes) of the PCI address are zero. '0010'
236 defines a limit of 128 bytes, '0011' one of 256 bytes, and
237 so on up to 1 Mbyte defined by '1111'. This interrupt range
238 can be calculated as follows:
239 Range = 2^(5 + Limit) bytes.
240 */
241 dw_limit = snd_aw2_saa7146_get_limit(period_size);
242 dw_page |= (dw_limit << 4);
243
244 if (stream_number == 0) {
245 WRITEREG(dw_page, PageA1_in);
246
247 /* Base address for DMA transfert. */
248 /* This address has been reserved by ALSA. */
249 /* This is a physical address */
250 WRITEREG(dma_addr, BaseA1_in);
251
252 /* Define upper limit for DMA access */
253 WRITEREG(dma_addr + buffer_size, ProtA1_in);
254 } else {
255 printk(KERN_ERR
256 "aw2: snd_aw2_saa7146_pcm_init_capture: "
257 "Substream number is not 0 -> not managed\n");
258 }
259}
260
261void snd_aw2_saa7146_define_it_playback_callback(unsigned int stream_number,
262 snd_aw2_saa7146_it_cb
263 p_it_callback,
264 void *p_callback_param)
265{
266 if (stream_number < NB_STREAM_PLAYBACK) {
267 arr_substream_it_playback_cb[stream_number].p_it_callback =
268 (snd_aw2_saa7146_it_cb) p_it_callback;
269 arr_substream_it_playback_cb[stream_number].p_callback_param =
270 (void *)p_callback_param;
271 }
272}
273
274void snd_aw2_saa7146_define_it_capture_callback(unsigned int stream_number,
275 snd_aw2_saa7146_it_cb
276 p_it_callback,
277 void *p_callback_param)
278{
279 if (stream_number < NB_STREAM_CAPTURE) {
280 arr_substream_it_capture_cb[stream_number].p_it_callback =
281 (snd_aw2_saa7146_it_cb) p_it_callback;
282 arr_substream_it_capture_cb[stream_number].p_callback_param =
283 (void *)p_callback_param;
284 }
285}
286
287void snd_aw2_saa7146_pcm_trigger_start_playback(struct snd_aw2_saa7146 *chip,
288 int stream_number)
289{
290 unsigned int acon1 = 0;
291 /* In aw8 driver, dma transfert is always active. It is
292 started and stopped in a larger "space" */
293 acon1 = READREG(ACON1);
294 if (stream_number == 0) {
295 WRITEREG((TR_E_A2_OUT << 16) | TR_E_A2_OUT, MC1);
296
297 /* WS2_CTRL, WS2_SYNC: output TSL2, I2S */
298 acon1 |= 2 * WS2_CTRL;
299 WRITEREG(acon1, ACON1);
300
301 } else if (stream_number == 1) {
302 WRITEREG((TR_E_A1_OUT << 16) | TR_E_A1_OUT, MC1);
303
304 /* WS1_CTRL, WS1_SYNC: output TSL1, I2S */
305 acon1 |= 1 * WS1_CTRL;
306 WRITEREG(acon1, ACON1);
307 }
308}
309
310void snd_aw2_saa7146_pcm_trigger_stop_playback(struct snd_aw2_saa7146 *chip,
311 int stream_number)
312{
313 unsigned int acon1 = 0;
314 acon1 = READREG(ACON1);
315 if (stream_number == 0) {
316 /* WS2_CTRL, WS2_SYNC: output TSL2, I2S */
317 acon1 &= ~(3 * WS2_CTRL);
318 WRITEREG(acon1, ACON1);
319
320 WRITEREG((TR_E_A2_OUT << 16), MC1);
321 } else if (stream_number == 1) {
322 /* WS1_CTRL, WS1_SYNC: output TSL1, I2S */
323 acon1 &= ~(3 * WS1_CTRL);
324 WRITEREG(acon1, ACON1);
325
326 WRITEREG((TR_E_A1_OUT << 16), MC1);
327 }
328}
329
330void snd_aw2_saa7146_pcm_trigger_start_capture(struct snd_aw2_saa7146 *chip,
331 int stream_number)
332{
333 /* In aw8 driver, dma transfert is always active. It is
334 started and stopped in a larger "space" */
335 if (stream_number == 0)
336 WRITEREG((TR_E_A1_IN << 16) | TR_E_A1_IN, MC1);
337}
338
339void snd_aw2_saa7146_pcm_trigger_stop_capture(struct snd_aw2_saa7146 *chip,
340 int stream_number)
341{
342 if (stream_number == 0)
343 WRITEREG((TR_E_A1_IN << 16), MC1);
344}
345
346irqreturn_t snd_aw2_saa7146_interrupt(int irq, void *dev_id)
347{
348 unsigned int isr;
349 unsigned int iicsta;
350 struct snd_aw2_saa7146 *chip = dev_id;
351
352 isr = READREG(ISR);
353 if (!isr)
354 return IRQ_NONE;
355
356 WRITEREG(isr, ISR);
357
358 if (isr & (IIC_S | IIC_E)) {
359 iicsta = READREG(IICSTA);
360 WRITEREG(0x100, IICSTA);
361 }
362
363 if (isr & A1_out) {
364 if (arr_substream_it_playback_cb[1].p_it_callback != NULL) {
365 arr_substream_it_playback_cb[1].
366 p_it_callback(arr_substream_it_playback_cb[1].
367 p_callback_param);
368 }
369 }
370 if (isr & A2_out) {
371 if (arr_substream_it_playback_cb[0].p_it_callback != NULL) {
372 arr_substream_it_playback_cb[0].
373 p_it_callback(arr_substream_it_playback_cb[0].
374 p_callback_param);
375 }
376
377 }
378 if (isr & A1_in) {
379 if (arr_substream_it_capture_cb[0].p_it_callback != NULL) {
380 arr_substream_it_capture_cb[0].
381 p_it_callback(arr_substream_it_capture_cb[0].
382 p_callback_param);
383 }
384 }
385 return IRQ_HANDLED;
386}
387
388unsigned int snd_aw2_saa7146_get_hw_ptr_playback(struct snd_aw2_saa7146 *chip,
389 int stream_number,
390 unsigned char *start_addr,
391 unsigned int buffer_size)
392{
393 long pci_adp = 0;
394 size_t ptr = 0;
395
396 if (stream_number == 0) {
397 pci_adp = READREG(PCI_ADP3);
398 ptr = pci_adp - (long)start_addr;
399
400 if (ptr == buffer_size)
401 ptr = 0;
402 }
403 if (stream_number == 1) {
404 pci_adp = READREG(PCI_ADP1);
405 ptr = pci_adp - (size_t) start_addr;
406
407 if (ptr == buffer_size)
408 ptr = 0;
409 }
410 return ptr;
411}
412
413unsigned int snd_aw2_saa7146_get_hw_ptr_capture(struct snd_aw2_saa7146 *chip,
414 int stream_number,
415 unsigned char *start_addr,
416 unsigned int buffer_size)
417{
418 size_t pci_adp = 0;
419 size_t ptr = 0;
420 if (stream_number == 0) {
421 pci_adp = READREG(PCI_ADP2);
422 ptr = pci_adp - (size_t) start_addr;
423
424 if (ptr == buffer_size)
425 ptr = 0;
426 }
427 return ptr;
428}
429
430void snd_aw2_saa7146_use_digital_input(struct snd_aw2_saa7146 *chip,
431 int use_digital)
432{
433 /* FIXME: switch between analog and digital input does not always work.
434 It can produce a kind of white noise. It seams that received data
435 are inverted sometime (endian inversion). Why ? I don't know, maybe
436 a problem of synchronization... However for the time being I have
437 not found the problem. Workaround: switch again (and again) between
438 digital and analog input until it works. */
439 if (use_digital)
440 WRITEREG(0x40, GPIO_CTRL);
441 else
442 WRITEREG(0x50, GPIO_CTRL);
443}
444
445int snd_aw2_saa7146_is_using_digital_input(struct snd_aw2_saa7146 *chip)
446{
447 unsigned int reg_val = READREG(GPIO_CTRL);
448 if ((reg_val & 0xFF) == 0x40)
449 return 1;
450 else
451 return 0;
452}
453
454
455static int snd_aw2_saa7146_get_limit(int size)
456{
457 int limitsize = 32;
458 int limit = 0;
459 while (limitsize < size) {
460 limitsize *= 2;
461 limit++;
462 }
463 return limit;
464}